Driving circuit for electroluminescent element

Abstract

 A driving circuit for driving one or more electroluminescent elements comprising a rectangular waveform generator for generating a rectangular waveform voltage of a fixed frequency, on the output of which generator an EL element and a coil are connected in series, which coil is designed to have a value of inductance greater than that exhibiting at its resonant condition. A predetermined approximately sinusoidal driving voltage preferrable for EL element can be applied only by adjusting the inductance of the coil, thereby the terminal voltage being raised even though the EL element is subjected to the change due to time duration.

Description

BACKGROUND OF THE INVENTION

[0001] The present invention relates to a driving circuit for driving one or more electroluminescent elements (hereinafter referred to EL element).

[0002] In a conventional EL element driving circuit shown in FIG. 4, a direct current(dc) input voltage Vcc is applied to the primary winding of transformer T via switching operation by means of transistor Tr, then converted to ac voltage and to a higher voltage, and applied to EL element 1. The secondary side of transformer T is formed as a resonant circuit which consists of the inductance of secondary winding N2 and capacitance of EL element 1. The voltage and frequency to be applied to EL element 1 is decided by the capacitance of EL element 1. In FIG.4, R1 and R2 are resistors, and C1 and C2 are capacitors.

[0003] EL element 1 mentioned above is a capacitive load, on the basis of which capacitance the transformer T must be designed. More specifically, such design should be performed in accordance with each emission area of EL elements 1. Such an independently performed design is inevitable, or it becomes impossible to be driven by a same voltage and frequency. Also, the impedance of EL element 1 can increase according to its change with time duration, and accordingly the voltage and frequency applied thereto are necessarily increased.

[0004] Disadvantages of the conventional driving circuits include: the transformer must be designed in accordance with capacitance component of EL element 1 as a load, which sustains minimalization of the device; and an increased driving frequency will lower the impedance to increase power consumption, which can increase degradation of EL element.

SUMMARY OF THE INVENTION

[0005] In view of disadvantages mentioned above, an object of the present invention is to provide an EL element driving circuit capable of being designed in a small size and having a long life.

[0006] An electroluminescent element driving circuit of the present invention comprises a rectangular waveform generator for generating a rectangular waveform voltage of a fixed frequency, and a coil connected in seires between an output of generator and an EL element, wherein said coil is designed to have a value of inductance greater than that exhibiting at its resonant condition.

[0007] In the EL element driving circuit of the invention, since the inductance of coil 3 is set up in an appropriate value, a voltage of a fixed frequency is applied to the EL element. Also, since the inductance of coil 3 is designed greater than that of its resonant condition, the terminal voltage of EL element 1 increases as the capacitance of EL element reduces due to change with time duration.

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] 

FIG.1 is a schematic diagram representing an embodiment of the present invention;

FIG.2 is an equivalent circuit of the output face of the rectangular waveform generator 2;

FIG.3 is a characteristic diagram illustrating the relationship between terminal voltage Vc of EL element 1 and inductance L of coil 3;

and FIG.4 is a schematic diagram of a conventional driving circuit.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0009] FIG.1 shows a driving circuit for an EL element according to the present invention, including an EL element 1 as a load, a rectangular waveform generator 2 which is applied with an ac or dc input for generating a rectangular waveform voltage of a fixed frequency f, and a coil 3, which is designed to have an inductance value larger than that at its resonant frequency and connected in seires between an output of generator 2 and EL element 1.

[0010] In operation, rectangular waveform generator 2 produces a voltage of a fixed frequency f which is independent from EL element 1 as a load. If, at the output side of generator 2, the coil 3 is designed to have a suitable inductance value, then a driving voltage of a fixed frequency having approximately a rectangular waveform is applied to EL element 1. Hence, EL element 1 is enabled to illuminate stably.

[0011] FIG.2 shows an equivalent circuit of the output face of the rectangular waveform generator 2. The output side of the waveform generator 2, in view of an applied rectangular waveform output voltage E of a fixed frequency, may be deemed as a RCL series circuit comprising a resistance R of resistor, an inductance L of the coil and a capacitance C of the capacitor. Thus, a terminal voltage Vc of EL element 1 at a resonant condition is:


which is applied on EL element 1. By appropriately establishing the level of produced rectangular voltage E and the inductance of coil 3, an approximately sinusoidal voltage of a predetermined level can be applied on EL element 1.

[0012] FIG.3 shows a characteristic diagram illustrating the relationship between terminal voltage Vc of EL element 1 and inductance L of coil 3. As shown, the Vc-L curve has a peak at the resonant point. An EL element 1 is characteristic in that the capacitance C thereof reduces in accodance with time duration. Accordingly, after operated for a time t under a fixed frequency, the resonant condition L=1/ω ²C (ω : angular frequency) increases, so that the Vc-L curve is shifted to the right. In order to obtain a predetermined terminal voltage for EL element 1 in a fixed frequency condition, the inductance L of coil 3 is established in a value L1 which is greater than inductance L0 of resonant condition. Although the capacitance of the EL element 1 decreases due to time duration, the terminal voltage increases from V1 to the higher voltage V2. In contrast, when the inductance L of coil 3 is estabished in a value L2 lower than that at resonance, the terminal voltage Vc decreases.

[0013] As a result, although various conditions of EL element 1, such as its emission surface area, are varied, a predetermined approximately sinusoidal driving voltage preferrable for EL element 1 can be applied only by adjusting the inductance of output coil 3. Also, since the inductance of coil 3 is set up greater than its resonant value, no matter how EL element 1 is subjected to a change with time, the terminal voltage rises but the frequency remains constant, thereby it is enabled to provide a long life of EL element 1.

[0014] In contrast to the conventional EL element 1, it is never required to design a transformer independently for each element, thereby enabling a small size design of the rectangular waveform generator 2. Further, another arrangement is possible such that a plurality of series circuits each including a coil 3 and an EL element 1 are connected in parallel to each other. This enables to drive a plurality of EL elements 1 in the manner that each EL element 1 is driven by an independent voltage, and also on-off operation is independently performed.

[0015] As described above, the present invention provides the advantages that the transformer is not required to be designed separately for each EL element to enable a design of small dimension, and that, although the EL element is subjected to change with time duration, the terminal voltage increases but the frequency remains constant, thereby providing a long life of EL element 1.

Claims

1. An electroluminescent element driving circuit comprising:
   a rectangular waveform generator(2) for generating a rectangular waveform voltage of a fixed frequency, and
   a coil (3) connected in series between an output of said generator(2) and an EL element(1),
wherein said coil (3) is designed to have a value of inductance greater than that exhibiting at its resonant condition.

2. An electroluminescent element driving circuit according to claim 1, wherein a plurality of series circuits each including a coil(3) and an EL element(1) are connected in parallel to each other.

Drawing